Method and device for transmitting and receiving broadcast signal on basis of color gamut resampling

ABSTRACT

The present invention relates to provision of a method and/or a device for transmitting and receiving a broadcast signal on the basis of color gamut resampling. The method for transmitting a broadcast signal, according to one embodiment of the present invention, comprises the steps of: resampling first color gamut-based content data into second color gamut-based content data; generating signaling information which includes color gamut resampling information indicating information on the resampling; respectively

TECHNICAL FIELD

The present invention relates to transmission and reception of abroadcast signal, and more particularly to a method and/or apparatus fortransmitting and receiving a broadcast signal on the basis of colorgamut resampling.

BACKGROUND ART

With increasing development of digital technology and communicationtechnology, multimedia content based on audio/video (A/V) data hasrapidly come into widespread use in various technical regions (e.g.,broadcasts, movies, Internet, personal media, etc.) and the number ofusers who desire to use multimedia content is also rapidly increasing.In addition, with widespread use of 3DTV/3D movies capable of providingusers with a stereoscopic three-dimensional (3D) effect, immersive mediacapable of providing the users with the 3D effect and stereo sound israpidly increasing. In addition, as the TV screen is gradually increasedin size in proportion to the increasing development of displaytechnology, the number of users who desire high-quality content such ashigh definition (HD) content is also rapidly increasing. Therefore, manydevelopers and companies are conducting intensive research intotechnology of immersive broadcasting TVs (such as 3DTVs and UHDTVs(Ultra High Definition TVs)) as next generation broadcast services toprepare for the Post-HDTV market. Specifically, in recent times, avariety of research into UHD (Ultra High Definition) broadcast serviceshas been developed.

With increasing development of UHD displays and transceivers, UHDservices have been intensively researched. An ultra high definition(UHD) broadcast may be distinguished from a legacy broadcast and providea high sense of realism, by expressing colors and/or brightness whichcannot be expressed in legacy content. However, many developers andcompanies are conducting intensive research into Wide Color Gamut (WCG)and/or High Dynamic Range (HDR) images and display devices fordisplaying WCG and/or HDR images.

UHD broadcasting aims to provide TV viewers with higher-quality images,higher-quality colors, and higher sense of immersion in a wider varietyof aspects than conventional HD broadcasting. Therefore, a UHD broadcastassociated standard has recently been established to define wider colorgamut than in conventional TVs. UHD content can provide TV viewers withthe best information similar to the original color directly obtainedthrough HVS (Human Visual System), such that it can provide the TVviewers with higher-quality images and a greater sense of immersion.Although the current broadcast system is designed to perform variouspost-processing steps needed to implement color enhancement, prior totransmission of the content for optimum color implementation, thecurrent broadcast system has difficulty in perfectly expressing variouscolors due to a difference in environment between the actual displayenvironment of each user and the manufacturing environment of thecontent manufacturer. In order to provide improved broadcast services inUHD broadcast in a different way from the legacy HD broadcast, therehave been intensively discussed various technologies for providing TVviewers with immersive content and a high sense of realism in varioustechnical aspects. As a representative method for creating the contentbrightness expression range similar to visual sense of the TV viewer,there is a need to discuss and study High Dynamic Range (HDR).

Since a WCG based image format standard has recently been established,it will take a long period of time to rapidly spread WCG based imageacquisition devices and WCG based display devices. Therefore, UHDservice transmission standards will be established in consideration offuture compatibility. In this case, video data having legacy color gamutmay be supplied using the WCG transmission format. For this purpose, amethod for providing a high-quality service in consideration of thedisplay environment through proper processing of a receiver is needed.

In legacy analog broadcasting and SDTV/HDTV, the standard color gamuthas been established simultaneously with development of video servicetechnology, such that the same color gamut has been used in imageacquisition, post-processing, transmission, and display in legacy analogbroadcasting and SDTV/HDTV. In other words, a color gamut matching atarget service is present. Thus, if a production and/or a transmitterperforms post-processing on the basis of the matched color gamut andtransmits the post-processed result, a difference in color gamut betweenrespective steps need not be considered. However, various color gamutshave been considered in UHD, for example, REC.709 currently used inHDTVs, BT.2020 established as UHDTV standard, DCI-P3 including anintermediate range of HDTV and UHDTV, xvYCC, etc. The legacy imageacquisition devices support only REC.709 based color gamuts, and thelegacy display supports only REC.709 based images. As described above,it will takes a long period of time to introduce BT.2020 into the imageacquisition device and the output device. In this case, considering thefuture compatibility problems, there is a need to research and developservices capable of supporting the above-mentioned two cases in a singlebroadcast service.

DISCLOSURE Technical Problem

An object of the present invention is to provide a method and/orapparatus for transmitting and receiving a broadcast signal based oncolor gamut resampling, that substantially obviate(s) one or moreproblems due to limitations and disadvantages of the related art.

An object of the present invention is to provide a method for reducingdisplay degradation at a receiver when a color gamut of original contentis different from a color gamut of a container in which content isincluded and transmitted.

Another object of the present invention is to provide a method fordiscriminating between a color gamut of the content and a color gamut ofthe container, and signaling the discriminated result.

Another object of the present invention is to provide a method forproviding signaling information for resampling of a color gamut when acolor gamut of the content is different from a color gamut of thecontainer.

Another object of the present invention is to provide a method fordetermining whether a color gamut is resampled according to a displayperformance of a receiver and providing optimum content appropriate forthe display performance of the receiver.

Technical Solution

The object of the present invention can be achieved by providing amethod for transmitting a broadcast signal including: resampling contentdata based on a first color gamut into content data based on a secondcolor gamut; generating signaling information including color gamutresampling information indicating information of the resampling;encoding the generated signaling information and the content data basedon the second color gamut; and transmitting the encoded content data andthe encoded signaling information.

The color gamut resampling information may include information regardingthe first color gamut, information regarding the second color gamut,color gamut resampling type information indicating a scheme of theresampling, and detailed information of a color gamut resampling typebased on the color gamut resampling type information.

Information regarding the first color gamut information may include notonly information indicating a type of the first color gamut, but alsocoordinate information in a color space of a reference color fordefining the first color gamut when the first color gamut is notidentical to a legacy defined color gamut. Information regarding thesecond color gamut may include not only information indicating a type ofthe second color gamut, but also coordinate information in a color spaceof a reference color for defining the second color gamut when the secondcolor gamut is not identical to a legacy defined color gamut.

If the resampling scheme based on the color gamut resampling typeinformation is a method for converting the content data based on thefirst color gamut into a neutral color space value not affected by acolor gamut and converting the converted neutral color space value intothe content data based on the second color gamut, the detailedinformation of the color gamut resampling type may include informationindicating a type of the neutral color space, coefficient information ofa conversion equation for converting content data based on the firstcolor gamut into the neutral color space value, and coefficientinformation of a conversion equation for converting the convertedneutral color space value into content data based on the second colorgamut.

If the resampling scheme based on the color gamut resampling typeinformation is a method for directly converting the content data basedon the first color gamut into content data based on the second colorgamut, the detailed information of the color gamut resampling type mayinclude coefficient information of a conversion equation for convertingcontent data based on the first color gamut into the content data basedon the second color gamut. If the resampling scheme based on the colorgamut resampling type information is a method for employing a lookuptable indicating mapping information between the content data based onthe first color gamut and the content data based on the second colorgamut, the detailed information of the color gamut resampling type mayinclude type information of the lookup table and constituent elementinformation of the lookup table.

The signaling information may include a Program Map Table (PMT) message,an Event Information Table (EIT) message, a Video Usability Information(VUI) message, and a Supplemental Enhancement Information (SEI) message.At least one of the Program Map Table (PMT) and the Event InformationTable (EIT) may include identification (ID) information for identifyingthat a broadcast service contained in the broadcast signal is abroadcast service based on the color gamut resampling.

The color gamut resampling information may be contained in at least oneof the Program Map Table (PMT) message, the Event Information Table(EIT) message, the Video Usability Information (VUI) message, and theSupplemental Enhancement Information (SEI) message.

In accordance with another aspect of the present invention, a method forreceiving a broadcast signal includes: receiving content data based on afirst color gamut and signaling information including color gamutresampling information regarding the content data based on the firstcolor gamut; decoding each of the received signaling information and thecontent data based on the first color gamut; and on the basis of thedecoded signaling information, resampling content data based on thedecoded first color gamut into content data based on a second colorgamut, outputting the resampled data to a display based on the secondcolor gamut or outputting content data based on the decoded first colorgamut to a display based on the first color gamut.

The color gamut resampling information may include information regardingthe first color gamut, information regarding the second color gamut,color gamut resampling type information indicating a scheme of theresampling, and detailed information of a color gamut resampling typebased on the color gamut resampling type information.

Information regarding the first color gamut information may include notonly information indicating a type of the first color gamut, but alsocoordinate information in a color space of a reference color fordefining the first color gamut when the first color gamut is notidentical to a legacy defined color gamut. Information regarding thesecond color gamut may include not only information indicating a type ofthe second color gamut, but also coordinate information in a color spaceof a reference color for defining the second color gamut when the secondcolor gamut is not identical to a legacy defined color gamut.

If the resampling scheme based on the color gamut resampling typeinformation is a method for converting the content data based on thefirst color gamut into a neutral color space value not affected by acolor gamut and converting the converted neutral color space value intothe content data based on the second color gamut, the detailedinformation of the color gamut resampling type may include informationindicating a type of the neutral color space, coefficient information ofa conversion equation for converting content data based on the firstcolor gamut into the neutral color space value, and coefficientinformation of a conversion equation for converting the convertedneutral color space value into content data based on the second colorgamut.

If the resampling scheme based on the color gamut resampling typeinformation is a method for directly converting the content data basedon the first color gamut into content data based on the second colorgamut, the detailed information of the color gamut resampling type mayinclude coefficient information of a conversion equation for convertingcontent data based on the first color gamut into the content data basedon the second color gamut. If the resampling scheme based on the colorgamut resampling type information is a method for employing a lookuptable indicating mapping information between the content data based onthe first color gamut and the content data based on the second colorgamut, the detailed information of the color gamut resampling type mayinclude type information of the lookup table and constituent elementinformation of the lookup table.

The signaling information may include a Program Map Table (PMT) message,an Event Information Table (EIT) message, a Video Usability Information(VUI) message, and a Supplemental Enhancement Information (SEI) message.At least one of the Program Map Table (PMT) and the Event InformationTable (EIT) may include identification (ID) information for identifyingthat a broadcast service contained in the broadcast signal is abroadcast service based on the color gamut resampling.

The color gamut resampling information may be contained in at least oneof the Program Map Table (PMT) message, the Event Information Table(EIT) message, the Video Usability Information (VUI) message, and theSupplemental Enhancement Information (SEI) message.

In accordance with another aspect of the present invention, an apparatusfor transmitting a broadcast signal includes: a color gamut resamplingunit configured to resample content data based on a first color gamutinto content data based on a second color gamut; a signaling informationgenerator configured to generate signaling information including colorgamut resampling information indicating information of the resampling;an encoder configured to encode the generated signaling information andthe content data based on the second color gamut; and a transmitterconfigured to transmit the encoded content data and the encodedsignaling information.

In accordance with another aspect of the present invention, a apparatusfor receiving a broadcast signal includes: a receiver configured toreceive content data based on a first color gamut and signalinginformation including color gamut resampling information regarding thecontent data based on the first color gamut; a decoder configured todecode each of the received signaling information and the content databased on the first color gamut; and an output unit, on the basis of thedecoded signaling information, configured to resample content data basedon the decoded first color gamut into content data based on a secondcolor gamut, output the resampled data to a display based on the secondcolor gamut or output content data based on the decoded first colorgamut to a display based on the first color gamut.

Advantageous Effects

As is apparent from the above description, the embodiments of thepresent invention can transmit and receive a broadcast signal based oncolor gamut resampling.

The embodiments of the present invention can reduce display degradationat a receiver when a color gamut of original content is different from acolor gamut of a container in which content is included and transmitted.

The embodiments of the present invention receive each of the color gamutof the content and a color gamut of the container prior to contentreception, such that the presence or absence of the necessity of colorgamut resampling can be determined in advance prior to reception of thecontent.

The embodiments of the present invention can determine whether the colorgamut is resampled according to display performance of the receiver,thus providing optimum content appropriate for the display performanceof the receiver.

The embodiments of the present invention can support all displays havingdifferent color gamuts.

The embodiments of the present invention can simultaneously supportvarious UHD services through only one broadcast system.

DESCRIPTION OF DRAWINGS

FIG. 1 is a flowchart illustrating a method for transmitting a broadcastsignal according to an embodiment of the present invention.

FIG. 2 is a conceptual diagram illustrating a videotransmission/reception process according to an embodiment of the presentinvention.

FIG. 3 is a conceptual diagram illustrating the operations of a receiveraccording to an embodiment of the present invention.

FIG. 4 is a conceptual diagram illustrating receiver's operationsincluding a detailed operation of a gamut resampling process accordingto an embodiment of the present invention.

FIG. 5 is a conceptual diagram illustrating a video post-processingoperation according to an embodiment of the present invention.

FIG. 6 is a view illustrating a supplemental enhancement information(SEI) message structure including ‘gamut_resampling_info(payloadsize)’according to an embodiment of the present invention.

FIG. 7 is a view illustrating ‘gamut_resampling_info(payloadsize)’according to an embodiment of the present invention.

FIG. 8 is a view illustrating ‘general_color_primaries( )’ according toan embodiment of the present invention.

FIG. 9 is a view illustrating ‘general_color_primaries( )’ according toan embodiment of the present invention.

FIG. 10 is a view illustrating ‘container_color_gamut_type’ according toan embodiment of the present invention.

FIG. 11 is a view illustrating ‘content_color_gamut_type’ according toan embodiment of the present invention.

FIG. 12 is a view illustrating ‘gamut_resampling_type’ according to anembodiment of the present invention.

FIG. 13 is a view illustrating ‘color_space_type’ according to anembodiment of the present invention.

FIG. 14 is a view illustrating a conversion equation according to amapping function that converts RGB values based on a current color gamutinto XYZ values during a gamut resampling process according to anembodiment of the present invention.

FIG. 15 is a view illustrating a conversion equation according to amapping function that converts a color denoted by XYZ values into RGBvalues based on a target color gamut during a gamut resampling processaccording to an embodiment of the present invention.

FIG. 16 is a view illustrating a conversion equation according to amapping function that converts RGB values based on a current color gamutfor use in a single conversion equation into R′G′B′ values based on atarget color gamut according to an embodiment of the present invention.

FIG. 17 is a view illustrating ‘LUT_type’ according to an embodiment ofthe present invention.

FIG. 18 is a view illustrating a Program Map Table (PMT) according to anembodiment of the present invention.

FIG. 19 is a view illustrating ‘UHD_program_info_descriptor( )’according to an embodiment of the present invention.

FIG. 20 is a view illustrating ‘UHD_service_type’ according to anembodiment of the present invention.

FIG. 21 is a view illustrating an Event information Table (EIT)according to an embodiment of the present invention.

FIG. 22 is a view illustrating ‘gamut_resampling_info_descriptor( )’according to an embodiment of the present invention.

FIG. 23 is a view illustrating ‘gamut_resampling_metadata( )’ accordingto an embodiment of the present invention.

FIG. 24 is a conceptual diagram illustrating the operations of atransmitter according to an embodiment of the present invention.

FIG. 25 is a conceptual diagram illustrating a receiver and operationsof the receiver according to an embodiment of the present invention.

FIG. 26 is a flowchart illustrating a method for receiving a broadcastsignal according to an embodiment of the present invention.

FIG. 27 is a block diagram illustrating an apparatus for transmitting abroadcast signal according to an embodiment of the present invention.

FIG. 28 is a block diagram illustrating an apparatus for receiving abroadcast signal according to an embodiment of the present invention.

BEST MODE

Reference will now be made in detail to the embodiments of the presentinvention, examples of which are illustrated in the accompanyingdrawings. The detailed description, which will be given below withreference to the accompanying drawings, is intended to explain exemplaryembodiments of the present invention, rather than to show the onlyembodiments that can be implemented according to the present invention.

Although most terms of elements in this specification have been selectedfrom general ones widely used in the art taking into considerationfunctions thereof in this specification, the terms may be changeddepending on the intention or convention of those skilled in the art orthe introduction of new technology. Some terms have been arbitrarilyselected by the applicant and their meanings are explained in thefollowing description as needed. Thus, the terms used in thisspecification should be construed based on the overall content of thisspecification together with the actual meanings of the terms rather thantheir simple names or meanings.

FIG. 1 is a flowchart illustrating a method for transmitting a broadcastsignal according to an embodiment of the present invention.

Referring to FIG. 1, the embodiment of the present invention cantransmit a broadcast signal using the following process. A transmitteraccording to one embodiment of the present invention may resamplecontent data based on a first color gamut into content data based on asecond color gamut (S1010). The first color gamut may indicate a colorgamut of original content data acquired from a camera. For example, thefirst color gamut may be REC.709 color gamut. In accordance with oneembodiment, from the viewpoint of the transmitter, a first color gamutmay be referred to as a content color gamut. The second color gamut maybe a color gamut for editing and/or transmitting content data. Forexample, the second color gamut may be BT.2020 color gamut. Inaccordance with one embodiment, from the viewpoint of a transmitter, thesecond color gamut may be referred to as a container color gamut. Inaccordance with one embodiment, the color gamut may indicate a colorexpression range or a color space. The resampling step (S1010) accordingto an embodiment will hereinafter be given with reference to FIGS. 2 and24. Thereafter, the transmitter according to one embodiment may generatesignaling information including color gamut resampling informationindicating the above-mentioned resampling information (S1020). The colorgamut resampling information according to one embodiment may indicate‘gamut_resampling_info(payloadsize)’, and may be different in meaningfrom ‘gamut_resampling_info(payloadsize)’. The step (S1020) forgenerating signaling information according to one embodiment of thepresent invention will hereinafter be given with reference to FIGS. 6,7, 8, 18, 19, 21, 22, and 23. Thereafter, the transmitter according toone embodiment may encode each of the generated signaling informationand resampled content data based on the second color gamut (S1030), andas such a detailed description thereof will hereinafter be given withreference to FIG. 24. The transmitter according to an embodiment of thepresent invention may transmit encoded content data and encodedsignaling information (S1040). In this case, content data and/orsignaling information may be transmitted through a terrestrial broadcastnetwork, a cable network, and/or the Internet. A detailed descriptionthereof will hereinafter be given with reference to FIG. 24.

The above-mentioned color gamut resampling information according toanother embodiment of the present invention may include first colorgamut information, second color gamut information, color gamutresampling type information indicating the resampling method, and/ordetailed information of the color gamut resampling type based on thecolor gamut resampling type information. In accordance with oneembodiment, from the viewpoint of the transmitter, the first color gamutinformation may include ‘content_color_gamut_type’ and/or‘general_color_primaries( )’. The second color gamut information mayinclude ‘container_color_gamut_type’ and/or ‘general_color_primaries()’. The color gamut resampling type information according to oneembodiment may indicate ‘gamut_resampling_type’, and the detailedinformation of the color gamut resampling type may indicate‘gamut_resampling_info( )’. A detailed description thereof willhereinafter be given with reference to FIGS. 6 to 17.

In accordance with another embodiment, assuming that type information ofthe first color gamut and/or the first color gamut are/is not identicalto the legacy defined color gamut, the first color gamut information mayinclude coordinate information on a gamut (color space) of a referencecolor for defining the first color gamut. Assuming that type informationof the second color gamut and/or the second color gamut are/is notidentical to the legacy defined color gamut, the second color gamutinformation may include coordinate information on a gamut (color space)of a reference color for defining the second color gamut. The colorgamut according to one embodiment may correspond to a color gamutdefined as the legacy standard, or may correspond to a color gamutdefined at random. The type information of the first color gamutaccording to one embodiment may indicate ‘content_color_gamut_type’, andthe coordinate information on a gamut (color space) of a reference colorfor defining the first color gamut, instead of the legacy defined colorgamut, may indicate coordinate information contained in‘general_color_primaries( )’. Information indicating the second colorgamut type according to an embodiment of the present invention mayindicate ‘container_color_gamut_type’. If the second color gamut is notidentical to the legacy defined color gamut, the coordinate informationon a gamut (color space) of a reference color for defining the secondcolor gamut may indicate coordinate information contained in‘general_color_primaries( )’. A detailed description thereof willhereinafter be given with reference to FIGS. 7 and 8.

In accordance with another embodiment, if the resampling scheme based onthe color gamut resampling type information is a data conversion schemein which content data based on the first color gamut is converted into aneutral gamut value not affected by the color gamut and the convertedneutral gamut value is converted into content data based on the secondcolor gamut, detailed information of the color gamut resampling type mayinclude type information indicating the neutral color gamut, coefficientinformation of a conversion equation used to convert content data basedon the first color gamut into the neutral color space value, and/orcoefficient information of a conversion equation used to convert theconverted neutral color space value into content data based on thesecond color gamut. Information indicating the neutral color space typeaccording to an embodiment may indicate ‘color_space_type’. Coefficientinformation of the conversion equation used to convert content databased on the first color gamut into the neutral color space value mayindicate ‘RGB_XYZ_mapping_function_coeff[i]’. The coefficientinformation of the conversion equation used to convert the convertedneutral color space value into content data based on the second colorgamut may indicate ‘XYZ_to_RGBprime_mapping_function_coeff[i]. Adetailed description thereof will hereinafter be given with reference toFIGS. 7 and 9.

In accordance with another embodiment, if the resampling schemeaccording to the color gamut resampling type information is the schemefor converting content data based on the first color gamut into contentdata based on the second color gamut, detailed information of the colorgamut resampling type may include coefficient information of aconversion equation used to convert content data based on the firstcolor gamut into content data based on the second color gamut. If theresampling scheme based on the color gamut resampling type informationis the scheme for employing a lookup table for indicating content databased on the first color gamut and mapping information of the contentdata based on the second color gamut, detailed information of the colorgamut resampling type may include type information of the lookup tableand the constituent element information of the lookup table. Inaccordance with detailed information of the color gamut resampling typeaccording to an embodiment, the coefficient information of a conversionequation used to convert content data based on the first color gamutinto content based on the second color gamut may indicate‘gamut_resampling_function_coeff[i]’, and type information of the lookuptable may indicate ‘LUT_type’, and the constituent element informationof the lookup table may indicate ‘LUT_info( )’. A detailed descriptionthereof will hereinafter be given with reference to FIGS. 7 and 9.

In accordance with another embodiment, the signaling information mayinclude a Program Map Table (PMT), an Event Information Table (EIT), aVideo Usability Information (VUI) message, and/or a SupplementalEnhancement Information (SEI) message. At least one of PMT and EITaccording to an embodiment of the present invention may includeidentification (ID) information for identifying that a broadcast servicecontained in the transmitted broadcast signal is a broadcast servicebased on the color gamut resampling. A detailed description thereof willhereinafter be given with reference to FIGS. 6, 18, 19, 20, and 21.

In accordance with another embodiment, the color gamut resamplinginformation may be contained in at least one of PMT, EIT, VUI, and SEImessages. A detailed description thereof will hereinafter be given withreference to FIGS. 6, 7, 18, 19, 20, 21, 22, and 23.

FIG. 2 is a conceptual diagram illustrating a videotransmission/reception (Tx/Rx) process according to an embodiment of thepresent invention.

Referring to FIG. 2, the video transmission/reception (Tx/Rx) processaccording to an embodiment of the present invention may include a legacycontent acquisition process (legacy image sensor/legacy content, REC.709) 2010, a gamut re-sampling process 2020, a production/contentproduction process (production/content provider, BT. 2020) 2030, aninverse process of gamut resampling (gamut re-sampling, inverse) 2040,and/or a display process (legacy display, REC. 709) 2050.

In the legacy content acquisition process (legacy image sensor/legacycontent, REC. 709) 2010, one embodiment of the present invention mayacquire the legacy content acquired by the legacy camera. The legacycontent according to an embodiment may be based on REC. 709 color gamut.Legacy content color based on REC. 709 color gamut may be denoted by atriangle 2060 as shown in the color coordinate plane.

The gamut resampling process 2020 may use colors commonly expressed intwo different color gamuts, such that RGB or YCbCr values based on onlyone color gamut are converted into RGB or YCbCr values based ondifferent color gamuts. In accordance with one embodiment, although thecolors are located at the same coordinates on the color coordinateplane, if the colors are based on different color gamuts, RGB or YCbCrvalues may be changed. In the sampling process in which the color gamutshaving different widths are sampled into the same number of digitalvalues, the sampled resultant values are mapped to different digitalvalues, such that RGB or YCbCr values may be acquired. For example, ifcolor values are displayed on the display having a bit depth of 8 bits,and if RGB or YCbCr based on BT.709 are expressed in association withthe color coordinates (0.3, 0.6) of the color coordinate plane, theresultant values (0, 255, 0) are acquired. If RGB or YCbCr based onBT.2020 are expressed, new values denoted by (10, 200, 30) are acquired.In this case, the above-mentioned color coordinate plane may correspondto CIE 1931 xy chromaticity diagram. In other words, the gamutresampling (2020, 2040) according to one embodiment may indicate that adigital value defined by one color gamut is denoted by another digitalvalue based on another color gamut. The gamut resampling according to anembodiment of the present invention converts a color space of thecontent into a reference color space in such a manner that the referencecolor space is not affected by the color gamut on the color coordinateplane. Thereafter, the color gamut is converted into a target colorgamut, and bit quantization is then carried out. That is, according toone embodiment, after color expression is carried out in a neutral spacenot affected by a given color gamut through the mapping process in whichRGB colors based on a specific color gamut are mapped to the colorcoordinate plane, the resultant values may also be re-expressed byanother value based on a new color gamut. The above-mentioned processesmay correspond to a process for re-expressing the color defined in anoverlap range of two color gamuts into another value based on the newcolor gamut. For example, if colors present in the wide color gamut(WCG) need to be expressed as a small color gamut, the above-mentionedprocess may have the same effects as in the clipping of colors escapingfrom the above gamut. RGB according to one embodiment may be representedby a combination of three colors (Red, Green, Blue) as one kind of acolor model. For example, in the above RGB model, a black color may bedenoted by R=G=B=0, a white color may be denoted by R=G=B=255, and ayellow color may be denoted by R=G=255. In accordance with oneembodiment, YCbCr is a kind of a color space used in an image system,and may denote a color expression scheme for separating a luminance(brightness) component and a chrominance component from colorinformation. In this case, Y may denote a luminance signal, and Cb andCr may denote chrominance signals. YCbCr may not indicate the colorspace absolutely, and may correspond to the color expression scheme inwhich RGB information in which RGB primary colors have uniform visualinformation is converted into different kinds of information composed ofa luminance signal and a chrominance signal by an equation.

In the production/content production process (production/contentprovider, BT.2020) 2030, images of the gamut resampled content accordingto one embodiment may be corrected and/or edited, and the content may betransmitted on the basis of the color gamut converted in the gamutresampling process. A detailed description thereof is as follows.

The inverse process of the gamut resampling (gamut re-sampling, inverse)2040 may be identical to the above-mentioned gamut resampling process2020. For example, assuming that REC.709 color gamut is converted intoBT.2020 color gamut in the gamut resampling process 2020, the BT.2020color gamut may be converted into REC.709 color gamut in the gamutresampling inverse process 2040. In accordance with one embodiment, ifthe new color gamut is mapped, the quantization process is performedaccording to a display bit depth, resulting in formation of the lastpixel value.

In the display process (legacy display, REC.709) 2050, content based onthe color gamut converted by the gamut resampling inverse process 2040according to one embodiment may be displayed. For example, in the gamutresampling inverse process 2040, a target color gamut (BT.2020) may beconverted into REC.709 color gamut corresponding to a color gamut of thelegacy content. The legacy display according to an embodiment maydisplay a legacy content based on REC.709 color gamut.

In accordance with one embodiment, if the color gamut needed for colorencoding follows the UHDTV standard and the content and display colorgamut follows the legacy standard, one embodiment of the presentinvention may transmit two kinds of color gamut information and thegamut resampling information to the receiver such that the embodimentcan support all displays having different color gamuts. In accordancewith one embodiment, differently from the legacy scalable basedextension, the embodiment may use the legacy codec without change, andmay consider future extensibility on the basis of video information,such that the embodiment may be used to provide various UHD services.For example, the embodiment may simultaneously support UHD-1 phase 1 and2 services in DVB.

In accordance with one embodiment, assuming that UHDTV standard colorgamut is used in color encoding, a method for employing different colorgamuts may be beneficial to the future extensibility and persistency ofthe future production infrastructure, and may also support various kindsof image acquisition and display devices ranging from current populardevices to devices to be used in future. In accordance with oneembodiment, if the legacy HDTV content is provided in the UHDTVenvironment, the issues encountered in the color gamut aspect may beaddressed.

The embodiment of the present invention may also be applied to anexemplary case in which a color gamut wider than that of BT.2020 isapplied to the color encoding in the same manner as in XYZ.

FIG. 3 is a conceptual diagram illustrating the operations of a receiveraccording to an embodiment of the present invention.

Referring to FIG. 3, the receiver operation according to one embodimentmay include a decoding process (decoder) 3010, a gamut re-samplingprocess 3020, a video post-processing process (video post-processing)3030, and/or a display process (display) 3040.

In the decoding process (decoder) 3010, the receiver according to oneembodiment may receive a compressed UHD video stream and decode thereceived compressed UHD video stream.

In the gamut resampling process (gamut resampling) 3020, the receivermay convert a color gamut in which decoded UHD video (i.e., uncompressedUHD video) is represented. In this case, information regarding a colorgamut of the container, information regarding the color gamut of thecontent and/or information regarding the color gamut of the display maybe used, and a detailed description thereof will hereinafter be given.

In the video post-processing step 3030, the receiver may post-processthe gamut resampled UHD video such that UHD video having superior imagequality can be generated. A detailed description thereof is as follows.

In the display process (display) 3040, the receiver may display thepost-processed UHD video.

FIG. 4 is a conceptual diagram illustrating receiver operationsincluding a detailed operation of the gamut resampling process accordingto an embodiment of the present invention.

Referring to FIG. 4, the gamut resampling process 3020 according to oneembodiment may include a container gamut matching process 4010, acontent gamut matching process 4020, a first gamut mapping (clipping)process 4030, and/or a bit depth quantization process 4040. The receiveroperation according to one embodiment may include the gamut resamplingprocess 3020, a second mapping (conversion) process 4050, a legacydisplay process (legacy display) 4060, and/or a WCG display process4070.

In accordance with one embodiment, the receiver operation may beclassified into one case in which the display of the receiver is thelegacy display and the other case in which the display of the receiveris a WCG UHD display according to display characteristics of thereceiver.

If the display of the receiver according to one embodiment is the legacydisplay (scenario 1), that is, if the video color gamut transmittedthrough a Video Usability Information (VUI) or Supplemental EnhancementInformation (SEI) message is not displayed by the receiver, the receivermay perform video processing to be suitable for legacy display.

In the container gamut matching process 4010, color gamuts of thecontainer transmitted through VUI or SEI message may be compared withthe color gamut of the display. In this case, the colour_primariesdefined in VUI or the container_color_gamut_type may be used. If thereceiver does not express the color gamut of the received container,that is, if the display of the receiver is the legacy display, thereceiver may convert the received image into an image appropriate forthe legacy display of the receiver through the additional processing tobe described.

If the color gamut of the container is not expressed by the display ofthe receiver, color gamut information of the content may be comparedwith the color gamut of the display during the content gamut matchingprocess 4020. If the color gamut of the content is matched to the colorgamut of the display, the gamut resampling process will be carried outthrough the first gamut mapping process to be described later. Incontrast, if the color gamut of the content is not matched to the colorgamut of the display, a color expression range of the content can beconverted such that the color expression range of the content can bedisplayed in the color expression range of the display through thesecond gamut mapping process to be described later.

The first gamut mapping process (gamut mapping (clipping)) 4030 maycorrespond to the process in which WCG expressed content for supportingWCG display is re-converted into the original color expression range.The following process may be broadly classified into two processes.First, the receiver may convert a wide color gamut (WCG) for supportingWCG display into a relatively smaller color gamut. In this case,conversion of the color gamut may use a conversion function promisedbetween two color gamuts (gamut_resampling_type=predefined gamutre-sampling), an element function per step for gamut resamplingconversion may be directly transmitted, or such conversion of the colorgamut may be achieved by a method for simultaneously transmitting theentire gamut resampling conversion equation or the LUT-shaped conversionfunction. The first gamut mapping process according to an embodiment ofthe present invention may also be applied to the case in which colorgamut clipping is used. That is, the receiver may generate the clippingeffect through hard thresholding when “out of gamut” occurs in apredetermined time in which WCG is displayed on the legacy display.

The bit depth quantization process 4040 may correspond to the process inwhich, after the above-mentioned first gamut mapping process isachieved, bit depths of colors expressed on the basis of the originalcolor gamut are quantized according to the bit depth of the display. Thebit depth quantization process 4040 may indicate the process in whichthe image having a changed color gamut is changed according to the bitdepth of the display.

The second gamut mapping process (gamut mapping (conversion)) 4050 maycorrespond to the process in which, when the color gamut of the legacydisplay is not matched to the color gamut of the content, the colorbased on the content color gamut is converted on the basis of the colorgamut of the display. In this case, if the color gamut of the legacydisplay is not matched to the color gamut of the content, the contentmay correspond to WCG content. In this case, although the receiverperforms clipping of the WCG content and reproduces the clipped WCGcontent on the legacy display, the color corresponding to “out of gamut”is properly expressed on the basis of the color gamut of the display soas to implement superior color sense, and at the same time WCG contentmay be converted in a manner that original colors of the colors presentin the gamut remain unchanged.

The legacy display process (legacy display) 4060 may correspond to theprocess for reproducing video data fabricated through theabove-mentioned process at the legacy UHD display. If necessary, priorto display of video data, the embodiment of the present invention canprovide superior image quality through post-processing of video data ofthe receiver.

If the display of the receiver according to one embodiment is the WCGUHD display (scenario 2), that is, if the video color gamut transmittedthrough a Video Usability Information (VUI) or Supplemental EnhancementInformation (SEI) message can be displayed by the receiver, the receivermay reproduce content without gamut resampling processing based on thefollowing operation.

In the container gamut matching process 4010, the receiver may comparethe color gamut of the container transmitted through the VUI or SEImessage with the color gamut of the display, and may determine whetherthe colors of the content transmitted from the display of thecorresponding receiver can be expressed or not. If it is determined thatthe receiver can express the color gamut of the transmitted container,the display of the receiver may be determined to be a WCG UHD display,and the receiver may display the received content without additionalprocessing.

In the WCG display process (WCG display) 4070, if the receiver canefficiently express the color gamut of the received container, that is,if the display of the receiver is the WCG UHD display, the transmittedvideo may be immediately reproduced on the WCG UHD display. Ifnecessary, one embodiment of the present invention may provide superiorimage quality through video post-processing of the receiver, prior todisplay of video data.

In accordance with one embodiment, during the container gamut matchingprocess 4010, the content gamut matching process 4020, the first gamutmapping (clipping) process 4030, the bit depth quantization process4040, and/or the gamut resampling process 3020, the gamut resamplingmetadata and/or the display information may be used, gamut resamplingmetadata may include a color gamut of the container and color gamutinformation of the content. The display information may includeinformation regarding the color gamut of the display.

FIG. 5 is a conceptual diagram illustrating a video post-processingoperation according to an embodiment of the present invention.

Referring to FIG. 5, the video post-processing process 3030 according toone embodiment may include a tone mapping process 5010, a transfer curveprocess 5020, and/or a color correction matrix 5030.

In the tone mapping process 5010, a bright part of the gamut resampledvideo may be changed to a clear video image, and a dark part of thegamut resampled video may be changed to a brighter image.

In the transfer curve process 5020, the tone-mapped video can beconverted into higher-image-quality video using a transfer curve.

In the color correction matrix process 5020, video may be converted intocolor-corrected video using a color correction matrix.

FIG. 6 is a view illustrating a supplemental enhancement information(SEI) message structure including ‘gamut_resampling_info(payloadsize)’according to an embodiment of the present invention.

Referring to FIG. 6, ‘gamut_resampling_info(payloadsize)’ according toan embodiment may be contained in payload of the packet havingtransmitted the SEI message, and then transmitted. In accordance withone embodiment, the above-mentioned ‘gamut_resampling_info(payloadsize)’may indicate a gamut re-sampling information descriptor.

FIG. 7 is a view illustrating ‘gamut_resampling_info(payloadsize)’according to an embodiment of the present invention.

Referring to FIG. 7, ‘gamut_resampling_info(payloadsize)’ may include a‘container_color_gamut_type’ field, a ‘content_color_gamut_type’ field,a ‘general_color_primaries( )’ field, a ‘gamut_resampling_type’ field,and/or a ‘gamut_resampling_info( )’.

Prior to provision of the content, the container_color_gamut_type fieldmay indicate the color expression gamut used as a reference of the imagepost-processing operation (task) and transmission. In accordance withone embodiment, it is assumed that the color gamut used in the imagepost-processing operation is identical to the color gamut used in thecolor encoding. In accordance with another embodiment, assuming that thecolor gamut used in the post-processing operation is different from thecolor gamut used in the color encoding, each color gamut may be signaledseparately, and the color gamut used in the color encoding may be usedas a reference. In accordance with one embodiment, if the color gamutdefined as a standard can be signaled and the arbitrary color expressiongamut is used, this field is set to ‘0110’, and red, green, blue, andwhite coordinates may be signaled through RGBW_primaries( ). A detaileddescription of the above-mentioned field value is as follows.

The content_color_gamut_type field may indicate the color expressiongamut of the original content. The content_color_gamut_type field mayperform signaling of the standard color gamut. If the arbitrary colorexpression gamut is used, the content_color_gamut_type field is set to‘0110’, and red, green, blue, white coordinates may be signaled throughRGBW_primaries( ). A detailed description of the above-mentioned fieldvalue is as follows.

The gamut_resampling_type field may indicate the gamut resampling typefor calculating a predetermined value obtained when a color in which acolor gamut of the container is expressed as a reference is expressedusing the color gamut of the content as a reference. A detaileddescription of the above-mentioned field value is as follows.

The general_color_primaries( ) and gamut_resampling_info( ) fields willhereinafter be given in detail.

In accordance with one embodiment of the present invention, thegamut_resampling_info(payloadsize) field may be different fromgamut_resampling_info( ) contained in thegamut_resampling_info(payloadsize) field.

FIG. 8 is a view illustrating ‘general_color_primaries( )’ according toan embodiment of the present invention.

In accordance with one embodiment, if the container color gamut or thecolor gamut type of the content color gamut indicate that arbitraryvalues instead of the standard values are used, the transmitter maytransmit color space coordinates of the color capable of defining thecolor gamut. In accordance with one embodiment, the color gamut may bedefined on the basis of red, green, blue, and white (R, G, B, W) values.In addition, according to another embodiment, the color gamut may bedefined using a color primary other than RGB values. In this case, thecolor gamut may be expressed through general_color_primaries( ).

In accordance with one embodiment, general_color_primaries( ) may have adescriptor format.

The general_color_primaries( ) field according to one embodiment mayinclude a RGBW_primary_flag field, a color_primary_r_x field, acolor_primary_r_y field, a color_primary_g_x field, a color_primary_g_yfield, a color_primary_b_x field, a color_primary_b_y field, acolor_primary_numbers_minus_3 field, a color_primary_x[i] field, acolor_primary_y[i] field, a white_primary_x field, and/or awhite_primary_y field.

The RGBW_primary_flag field may indicate a method for expressing anarbitrary color gamut. If the color gamut is indicated based on threearbitrary primary colors (RGB), this field may be set to ‘1’. If thecolor gamut is indicated based on the remaining values other than RGBvalues, this field may be set to zero ‘0’.

The color_primary_r_x field may indicate x coordinates of R (red) colorin the color space. The color_primary_r_x field may indicate a binaryvalue of each value interposed between ‘0’ and ‘1’, and may indicate adifference between each binary value and a reference value.

The color_primary_r_y field may indicate y coordinates of R color in thecolor space. The color_primary_r_y field may indicate a binary value ofeach value interposed between ‘0’ and ‘1’, and may indicate a differencebetween each binary value and a reference value.

The color_primary_g_x field may indicate x coordinates of G (green)color in the color space. The color_primary_g_x field may indicate abinary value of each value interposed between ‘0’ and ‘1’, and mayindicate a difference between each binary value and a reference value.

The color_primary_g_y field may indicate y coordinates of G color in thecolor space. The color_primary_g_y field may indicate a binary value ofeach value interposed between ‘0’ and ‘1’, and may indicate a differencebetween each binary value and a reference value.

The color_primary_b_x field may indicate x coordinates of B (blue) colorin the color space. The color_primary_b_x field may indicate a binaryvalue of each value interposed between ‘0’ and ‘1’, and may indicate adifference between each binary value and a reference value.

The color_primary_b_y field may indicate y coordinates of B color in thecolor space. The color_primary_b_y field may indicate a binary value ofeach value interposed between ‘0’ and ‘1’. In this case, theabove-mentioned color space may correspond to CIE 1931.

The color_primary_numbers_minus_3 field may indicate the number of colorprimary values when the color expression gamut is defined using thecolor primary other than RGB. In accordance with one embodiment, it isassumed that a minimum primary value for indicating a plurality ofcolors in the color coordinate plane is set to 3, and the number ofavailable color primary values is denoted by‘3<=color_primary_numbers_minus_3+3<=18’.

If the color expression gamut is defined using the color primary otherthan RGB, the color_primary_x[i] field may indicate x coordinates in thecolor space of the i-th color primary. The color_primary_x[i] field mayindicate a binary value of each value interposed between ‘0’ and ‘1’,and may indicate a difference between each binary value and a referencevalue.

If the color expression gamut is defined using the color primary otherthan RGB, the color_primary_y[i] field may indicate y coordinates in thecolor space of the i-th color primary. The color_primary_y[i] field mayindicate a binary value of each value interposed between ‘0’ and ‘1’,and may indicate a difference between each binary value and a referencevalue.

The white_primary_x field may indicate x coordinates of W (white) colorin the color space. The white_primary_x field may indicate a binaryvalue of each value interposed between ‘0’ and ‘1’, and may indicate adifference between each binary value and a reference value.

The white_primary_y field may indicate y coordinates of W color in thecolor space. The white_primary_y field may indicate a binary value ofeach value interposed between ‘0’ and ‘1’, and may indicate a differencebetween each binary value and a reference value.

FIG. 9 is a view illustrating ‘general_color_primaries( )’ according toan embodiment of the present invention.

Referring to FIG. 9, the gamut_resampling_info( ) field according to oneembodiment may have a descriptor format, and may be contained ingamut_resampling_info(payloadsize).

The gamut_resampling_info( ) field may include a color_space_type field,an RGB_to_XYZ_mapping_function_flag field, anXYZ_to_RGBprime_mapping_function_flag field, a number_of_coeff field, anRGB_XYZ_mapping_function_coeff[i] field, anXYZ_to_RGBprime_mapping_function_coeff[i] field, agamut_resampling_function_coeff[i] field, an LUT_type field, and/or anLUT_info( ) field.

The color_space_type field may indicate an arbitrary color space used inthe gamut resampling. A detailed description of field values containedin the color_space_type field is as follows.

If the RGB_to_XYZ_mapping_function_flag field is set to 1, this fieldindicates that elements of the mapping function for converting RGBvalues based on a current color gamut into XYZ values are directlysignaled. If the RGB_to_XYZ_mapping_function_flag field is set to zero‘0’, this field may indicate that a predetermined value is used for agiven color_space_type and is judged by inference and then mapped. Inaccordance with one embodiment, this field may also be used to representthe mapping function regarding YCbCr˜XYZ colors instead of RGB˜XYZcolors, or the mapping functions regarding the remaining colors otherthan YCbCr˜XYZ and RGB˜XYZ colors.

If the XYZ_to_RGBprime_mapping_function_flag field is set to 1, thisfield may indicate that elements of the mapping function for convertingXYZ values into RGB values based on a target color gamut are directlysignaled. If the XYZ_to_RGBprime_mapping_function_flag field is set tozero ‘0’, this field may indicate that a predetermined value is used fora given color_space_type or is judged by inference and then mapped. Inaccordance with one embodiment, this field may also be used to representthe mapping functions regarding YCbCr˜XYZ colors instead of RGB˜XYZcolors, or the mapping functions regarding the remaining colors otherthan YCbCr˜XYZ and RGB˜XYZ colors.

The number_of_coeff field (present in RGB_to_XYZ_mapping_function_flagloop) may indicate the number of elements (coefficients) of the mappingfunction for converting RGB values based on the current color gamut intoXYZ values.

The RGB_XYZ_mapping_function_coeff[i] field may indicate the elements ofthe mapping function for converting RGB values based on the currentcolor gamut into XYZ values. In accordance with one embodiment, it isassumed that such conversion is achieved through a linear matrix, andeach element may construct a single conversion equation as shown in thefollowing drawings.

The number_of_coeff field (present inXYZ_to_RGBprime_mapping_function_flag loop) may indicate the number ofelements of the mapping function for converting a color denoted by XYZvalues in the color space into RGB values based on the target colorgamut.

The XYZ_to_RGBprime_mapping_function_coeff[i] field may indicate theelements of the mapping function for converting a color denoted by XYZvalues in the color space into RGB values based on the target colorgamut. In accordance with one embodiment, it is assumed that suchconversion is achieved through the linear matrix, and each element mayconstruct a single conversion equation as shown in the followingdrawings.

The number_of_coeff field (present in gamut_resampling_type==‘0010’loop) may indicate the number of elements of the mapping function forconverting RGB values based on the current color gamut into R′G′B′values based on the target color gamut, according to the singleconversion equation.

The gamut_resampling_function_coeff[i] field may indicate the number ofelements of the mapping function for converting RGB values based on thecurrent color gamut into R′G′B′ values based on the target color gamut,according to the single conversion equation. In accordance with oneembodiment, the gamut_resampling_function_coeff[i] field may be usedwhen the receiver uses conversion supplied from the content providerwithout change and without additional processing therein. In accordancewith one embodiment, it is assumed that such conversion is achievedthrough the linear matrix, and each element may construct a singleconversion equation as shown in the following drawings.

The LUT_type field may indicate the category of LUT when thegamut_resampling_type field is set to ‘0011’. LUT according to oneembodiment may be a single method for color mapping, and may indicate atable for matching the input value to the output value on a one to onebasis. A detailed description of the LUT_type field is as follows.

The LUT_info( ) field may include constituent elements of LUT accordingto the above-mentioned LUT_type.

FIG. 10 is a view illustrating ‘container_color_gamut_type’ according toan embodiment of the present invention.

Referring to FIG. 10, the container_color_gamut_type field according toone embodiment may be contained in thegamut_resampling_info(payloadsize) field.

If the container_color_gamut_type is set to 0000, this means that thecolor gamut is identical to BT.601. If the container_color_gamut_type isset to 0001, this means that the color gamut is identical to BT.709. Ifthe container_color_gamut_type is set to 0010, this means that the colorgamut is identical to DCI-P3. If the container_color_gamut_type is setto 0011, this means that the color gamut is identical to BT.2020 (NCL).If the container_color_gamut_type is set to 0100, this means that thecolor gamut is identical to BT.2020 (CL). If thecontainer_color_gamut_type is set to 0101, this means that the colorgamut is identical to XYZ. If the container_color_gamut_type is set to0110, this means that the color gamut is based on user definition.

FIG. 11 is a view illustrating a field ‘content_color_gamut_type’according to an embodiment of the present invention.

Referring to FIG. 11, the content_color_gamut_type field may becontained in the gamut_resampling_info(payloadsize) field.

If the content_color_gamut_type is set to 0000, this means that thecolor gamut is identical to BT.601. If the content_color_gamut_type isset to 0001, this means that the color gamut is identical to BT.709. Ifthe content_color_gamut_type is set to 0010, this means that the colorgamut is identical to DCI-P3. If the content_color_gamut_type is set to0011, this means that the color gamut is identical to BT.2020 (NCL). Ifthe content_color_gamut_type is set to 0100, this means that the colorgamut is identical to BT.2020 (CL). If the content_color_gamut_type isset to 0101, this means that the color gamut is identical to XYZ. If thecontainer_color_gamut_type is set to 0110, this means that the colorgamut is based on user definition.

FIG. 12 is a view illustrating ‘gamut_resampling_type’ according to anembodiment of the present invention.

Referring to FIG. 12, the gamut_resampling_type field may be containedin the gamut_resampling_info(payloadsize) field.

If the gamut_resampling_type field is set to 0000, the receiver mayperform gamut resampling using the receiver-inference method or thepromised method (pre-defined gamut resampling) on the basis of the colorgamut and the content color gamut information. If thegamut_resampling_type field is set to 0000 to 0011, the receiver mayperform gamut resampling using the method defined in the above-mentionedgamut_resampling_info( ) field. If the gamut_resampling_type field isset to 0001 (gamut re-sampling functions), the receiver may divide thegamut resampling into two steps (RGB to XYZ and XYZ to RGB), and mayperform gamut resampling using the mapping function regarding each step.In this case, the color space indicating XYZ may be designated.

If the gamut_resampling_type field is set to 0010 (single functionconversion), the receiver may perform gamut resampling using a methodfor expressing the entire process as an arbitrary matrix andtransmitting the resultant matrix. In accordance with one embodiment,the receiver may perform gamut resampling for converting RGB valuesbased on the current color gamut into R′G′B′ values based on a new colorgamut without the intermediate XYZ conversion.

If the gamut_resampling_type field is set to 0011 (Look Up Table), thereceiver may perform gamut resampling using the received LUT (Look UpTable).

In accordance with one embodiment, if the gamut_resampling_type field isset to 0001, instead of 0010 or 0011, the conversion equation from RGBto XYZ and the other conversion equation from XYZ to RGB are given. Asdescribed above, the respective conversion equations are transferredthrough separate processes, such that the receiver may add the properimage enhancement to each step, resulting in acquisition ofhigher-definition images.

FIG. 13 is a view illustrating ‘color_space_type’ according to anembodiment of the present invention.

Referring to FIG. 13, the color_space_type field may be contained in thegamut_resampling_info( ) field.

If the color_space_type is set to 0000, this means that the CIE 1931color space is used in the gamut resampling.

If the color_space_type is set to 0001, this means that the CIE Labcolor space is used in the gamut resampling.

If the color_space_type is set to 0010, this means that the CIE Luvcolor space is used in the gamut resampling.

FIG. 14 is a view illustrating a conversion equation according to amapping function that converts RGB values based on the current colorgamut into XYZ values during the gamut resampling process according toan embodiment of the present invention.

Referring to FIG. 14, according to one embodiment, RGB values based onthe current color gamut may be converted into XYZ values using thematrix conversion equation.

FIG. 15 is a view illustrating a conversion equation according to amapping function that converts a color denoted by XYZ values into RGBvalues based on a target color gamut during a gamut resampling processaccording to an embodiment of the present invention.

Referring to FIG. 15, according to one embodiment, the color denoted byXYZ values may be converted into RGB values based on the target colorgamut using the matrix conversion equation.

FIG. 16 is a view illustrating a conversion equation according to amapping function that converts RGB values based on a current color gamutfor use in a single conversion equation into R′G′B′ values based on atarget color gamut according to an embodiment of the present invention.

Referring to FIG. 16, according to one embodiment, RGB values based onthe current color gamut may be converted into R′G′B′ values based on thetarget color gamut using the matrix conversion equation.

FIG. 17 is a view illustrating ‘LUT_type’ according to an embodiment ofthe present invention.

According to one embodiment, the LUT for matching an input value to anoutput value in association with all colors has a huge amount of data,and it may be difficult for the LUT to be transmitted in the form ofmetadata. Accordingly, according to one embodiment, 3D coordinates ofthe color are not all used, and a method for independently matching the3D coordinates to each channel, or a method for estimating LUTconstituent elements on the basis of a reference point may be used.

If the LUT_type field is set to 0000, this means that LUT configured tobe independently matched to each channel is used. If the LUT_type fieldis set to 0001, this means that LUT configured to use all the 3Dcoordinates is used. If the LUT_type field is set to 0010, this meansthat LUE configured to estimate LUT constituent elements on the basis ofa reference point may be used.

FIG. 18 is a view illustrating a Program Map Table (PMT) according to anembodiment of the present invention.

Referring to FIG. 18, according to one embodiment, for the UHD serviceusing the above-mentioned gamut_resampling_info(payloadsize), metadatatransmission through the SEI message and/or signaling for UHD service inPMT may be needed. Furthermore, according to one embodiment to bedescribed later, the UHD service and/or thegamut_resampling_info(payloadsize) field may be signaled at the servicelevel using Event Information Table (EIT).

PMT according to one embodiment may include a table_id field, asection_syntax_indicator field, a section_length field, a program_numberfield, a version_number field, a current_next_indicator field, asection_number field, a last_section_number field, a PCR_PID field, aprogram_info_length field, a descriptor( ) field, a stream_type field,an elementary_PID field, an ES_info_length field, a descriptor( ) field,and/or a CRC_32 field.

The table_id field may identify the type of the table. The table_idfield may indicate that the corresponding table section is a sectionconstructing the PMT.

The section_syntax_indicator may indicate the format of a table sectionlocated after the corresponding field. If the corresponding field is setto zero ‘0’, this means that the corresponding table section is a shortformat. If the corresponding field is set to ‘1’, this means that thecorresponding table section is based on a general long format.

The section_length field may indicate the length of the correspondingtable section. The section_length field indicates the length rangingfrom the corresponding field to the end of the corresponding tablesection, such that the actual length of the corresponding table sectionmay indicate that the actual length of the corresponding table sectionis achieved by adding 3 bytes to the value denoted by the section_lengthfield.

The program_number field may identify each program service or virtualchannel present in the transport stream.

The version_number field may indicate a version number of the privatetable section. The receiver may search for the latest one from amongtable sections stored in the memory using the version_number field andthe current_next_indicator field.

If the current_next_indicator field is set to 1, this means that acurrent transmission table is valid. If the current_next_indicator fieldis set to 0, this means that the current transmission table will bevalid in future although it is not valid at present.

The section_number field may indicate the order of arrangement of thecorresponding section within the corresponding table, such that thearrangement order of the corresponding section within the table can berecognized.

The last_section_number field may indicate the order of the last sectionfrom among the plurality of sections constructing the correspondingtable.

PCR_PID field may indicate a packet ID including a Program ClockReference (PCR) for the program service.

The program_info_length field may indicate the length of a descriptorindicating the subsequent program information (program_info).

The descriptor( ) field may indicate a descriptor indicating informationregarding the program corresponding to the table section. In accordancewith one embodiment, this descriptor( ) field may include‘UHD_program_info_descriptor( )’ for identifying the UHD service type.

The stream_type field may indicate the type of each unit streamconstructing the program explained by the corresponding table.

The elementary_PID field may indicate the packet ID of each unit streamconstructing the program explained by the corresponding table.

The ES_info_length field may indicate the length of a descriptorindicating information (ES_info) for each unit stream to be followed ina subsequent order.

The descriptor( ) field may indicate a descriptor indicating informationof a single unit stream from among unit streams constructing the programexplained by the corresponding table. In accordance with one embodiment,this descriptor may include a descriptor including the above-mentionedgamut_resampling_info(payloadsize) and/or another descriptor includingthe above-mentioned gamut_resampling_info( ).

The CRC_32 field may indicate a CRC value for determining the presenceor absence of an error in data contained in the corresponding tablesection.

The PMT according to one embodiment may be transmitted in the in-bandmanner through MPEG-TS, and the entirety of PSI information includingthe PMT may be written in the xml languages and transmitted through theIP.

FIG. 19 is a view illustrating a field ‘UHD_program_info_descriptor( )’according to an embodiment of the present invention.

Referring to FIG. 19, the UHD_program_info_descriptor( ) field accordingto one embodiment may include a descriptor_tag field, adescriptor_length field, and/or a UHD_service_type field.

The descriptor_tag field may indicate that this descriptor is adescriptor including type information of the UHD service.

The descriptor_length field may indicate the length of this descriptor.

The UHD_service_type field may provide information regarding the UHDservice type. A detailed description of the field value assigned to thisfield will hereinafter be given.

FIG. 20 is a view illustrating a field ‘UHD_service_type’ according toan embodiment of the present invention.

Referring to FIG. 20, the UHD_service_type according to one embodimentmay be contained in the above-mentioned UHD_program_info_descriptor( ).

If the UHD_service_type is set to 0000, this means that the provisionservice is a UHD1 (4K) service.

If the UHD_service_type is set to 0001, this means that the provisionservice is a UHD2 (8K) service.

The UHD_service_types (1000 to 1111) may be defined by the user and thenused. In accordance with one embodiment, the UHD_service_type may beused to indicate the services sectioned according to UHD services. Inaccordance with one embodiment, if the UHD_service_type field is set to1010, this means the UHD1 service based on the gamut resampling.

FIG. 21 is a view illustrating an Event information Table (EIT)according to an embodiment of the present invention.

Referring to FIG. 21, according to one embodiment, the UHD serviceand/or the gamut_resampling_info(payloadsize) may be signaled using theEvent information Table (EIT).

The EIT field according to one embodiment may include a table_id field,a section_syntax_indicator field, a section_length field, a service_idfield, a version_number field, a current_next_indicator field, asection_number field, a last_section_number field, a transport_stream_idfield, an original_network_id field, a segment_last_section_numberfield, a last_table_id field, an event_id field, a start_time field, aduration field, a running_status field, a free_CA_mode field, adescriptors_loop_length field, a descriptor( ) field, and/or a CRC_32field.

The table_id field may identify the table type. The table_id field mayindicate that the corresponding table section is a section constructingthe EIT.

The section_syntax_indicator field may indicate the format of a tablesection subsequent to the corresponding field. If the correspondingfield is set to zero ‘0’, the corresponding table section may indicate ashort format. If the corresponding field value is set to 1, thecorresponding table section may be based on a general long format.

The section_length field may indicate the length of the correspondingtable section. The section_length field may indicate the length from therear part of the corresponding field to the end of the correspondingtable section.

The service_id field may identify each service present in the transportstream. The service_id field may have the same function as in theprogram_number field in PMT.

The version_number field may indicate a version number of a privatetable section. The receiver may search for the latest one from amongtable sections stored in the memory using the current_next_indicatorfield to be described later.

If the current_next_indicator field is set to 1, this means that thecurrent transmission table is valid. If the current_next_indicator fieldis set to zero ‘0’, this means that the current transmission table willbe valid in future although it is not valid at present.

The section_number field may indicate the order of arrangement of thecorresponding section within the corresponding table, such that thearrangement order of the corresponding section within the table can berecognized.

The last_section_number field may indicate the order of the last sectionfrom among the plurality of sections constructing the correspondingtable.

The transport_stream_id field may identify a transport stream (TS) to bedescribed in the corresponding table.

The original_network_id field may identify an optimum broadcast stationhaving transmitted the service or event described in the correspondingtable.

The segment_last_section_number field may indicate the last sectionnumber of the corresponding segment when the sub table is present. Ifthe sub table is not divided into a plurality of sections, the valuedenoted by the corresponding field may indicate the same value as in thelast_section_number field.

The last_table_id field may indicate the last table_id used.

The event_id field may identify each event, and may have only one valuewithin only one service.

The start_time field may indicate a start time of the correspondingevent.

The duration field may indicate a duration time of the correspondingevent. For example, if the duration time of the program is 105 minutesand 30 seconds, the duration field may indicate ‘0x014530’.

The running_status field may indicate a status of the correspondingevent

.

If the free_CA_mode field is set to zero ‘0’, this means that thecomponent streams constructing the service are not scrambled. If thefree_CA_mode field is set to ‘1’, this means that access to one or morestreams is adjusted by the CA system. CA system is an abbreviation ofConditional Access System. The CA system may allow only a contractor tolegally view and listen to the broadcast program, and may have afunction for encoding (encrypting) the broadcast content and may allowonly the contractor to decode (or decrypt) a password such that thecontractor can view and listen to the broadcast content.

The descriptors_loop_length field may indicate the sum of lengths ofdescriptors located subsequent to the corresponding field.

The descriptor( ) field may indicate a descriptor for describing eachevent. In accordance with one embodiment, this descriptor may include aUHD_program_info_descriptor( ) indicating the UHD service type and/or adescriptor including gamut_resampling_info(payloadsize). In this case,through the descriptor including the above-mentionedgamut_resampling_info(payloadsize), it can be recognized whether or notmetadata for conversion of the color gamut is included in the eventlevel, and the receiver may determine whether or not the content basedon the corresponding color gamut is accommodated. In accordance with oneembodiment, the above-mentioned information contained in this descriptormay be contained in AEIT in the case of cable broadcasting.

The CRC_32 field may indicate a CRC value used to determine the presenceor absence of an error in data contained in the corresponding tablesection.

In accordance with one embodiment, EIT may be configured in the form ofa table and then transmitted to the TS, and may be written in xml andthen transmitted by IP streaming.

In accordance with one embodiment, if UHD_service_type contained in theUHD_program_info_descriptor( ) of the EIT is set to 1010 (indicatingUHD1 (4K) service based on gamut resampling), it can be recognized thatgamut resampling can be performed using metadata.

In accordance with another embodiment, if UHD_service_type contained inUHD_program_info_descriptor( ) of the EIT is set to 0000 (indicting UHD1(4K) service), the presence or absence of a descriptor including thegamut_resampling_info(payloadsize) field is confirmed, such that gamutresampling can be carried out using metadata.

FIG. 22 is a view illustrating ‘gamut_resampling_info_descriptor( )’according to an embodiment of the present invention.

Referring to FIG. 22, according to one embodiment, thegamut_resampling_info_descriptor( ) field may be identical to thedescriptor including the above-mentionedgamut_resampling_info(payloadsize).

The gamut_resampling_info_descriptor( ) field may include adescriptor_tag field, a descriptor_length field, and/or agamut_resampling_metadata( ) field.

The descriptor_tag field may indicate that this descriptor includesgamut_resampling_metadata( ).

The descriptor_length field may indicate the length of the descriptor.

The gamut_resampling_metadata( ) field may include information relatedto the gamut resampling, and a detailed description thereof is asfollows.

In accordance with one embodiment, if the gamut resampling relatedinformation is transmitted through gamut_resampling_info_descriptor( )in the EIT, the container color gamut and/or the content color gamut aretransmitted, such that information as to whether the program to betransmitted in future is received and information as to whether theprogram to be transmitted in future is operated will be determined inadvance.

FIG. 23 is a view illustrating ‘gamut_resampling_metadata( )’ accordingto an embodiment of the present invention.

Referring to FIG. 23, the gamut_resampling_metadata( ) field may beidentical to gamut_resampling_info(payloadsize).

In accordance with one embodiment, the gamut_resampling_metadata( )field may include a container_color_gamut_type field, acontent_color_gamut_type field, a general_color_primaries( ) field,and/or a gamut_resampling_type field. Although not shown in FIG. 23, thegamut_resampling_metadata( ) field may further includegamut_resampling_info( ).

From among the fields contained in the gamut_resampling_metadata( )field, the same field as the field including the above-mentionedgamut_resampling_info(payload) may have the same meaning as in the fieldcontained in the gamut_resampling_info(payload).

In accordance with one embodiment, the gamut_resampling_metadata( )field may have the same meaning as ingamut_resampling_metadata(payloadsize).

FIG. 24 is a conceptual diagram illustrating the operations of atransmitter according to an embodiment of the present invention.

The operations of the transmitter for converting video data acquired bythe UHD camera based on a small color gamut (e.g., REC.709) into a colorbased on a wide color gamut (e.g., BT.2020) are shown in FIG. 24.

The operation of the transmitter according to one embodiment may includea UHD camera process 24010, a gamut resampling process 24020, a colorrendering process 24030, a color encoding process 24040, a metadatagenerator process 24050, and/or a video encoding process 24060.

In the UHD camera process 24010, the embodiment of the present inventionmay acquire video data acquired by the UHD camera having REC. 709 colorgamut.

In the gamut resampling process 24020, in association with video dataacquired by the UHD camera having REC.709 color gamut, the transmittermay convert the REC.709 color gamut to which the above video data isapplied into the BT.2020 color gamut having a color expression gamut.The converted BT.2020 color gamut may indicate a color gamut of thetarget display when the images are reproduced by the final receiver. Inaccordance with one embodiment, inverse conversion related informationfor the conversion used in the above process may be constructed in theform of metadata, and then transmitted to the receiver. Theabove-mentioned inverse conversion related information may be used forthe legacy display that does not sufficiently satisfy the color gamut(BT.2020) of the target display. The above-mentioned process may becarried out by the color gamut resampling process according to anembodiment of the present invention.

In the color rendering process 24030, the content in which the colorgamut is changed by the previous process may pass through the imagecorrection and/or editing process performed at the studio/contentprovider/production stage. This process may be performed aftercompletion of the gamut resampling process, and video relatedinformation generated in this process may be transmitted to the coloristmetadata (colorist information). The above-mentioned process may becarried out by the color gamut resampling process.

In the color encoding process 24040, the transmitter may convert RGBvalues into YCbCr values so as to transmit color images. In this case,such conversion may be carried out on the basis of the BT.2020 colorgamut converted by the above-mentioned gamut resampling. In accordancewith one embodiment, the RGB to YCbCr conversion information and/orcolor gamut information may be transmitted in the form of video metadata(such as VUI). The above-mentioned information may be contained in thecolor encoding information. This process may be carried out by theencoder according to one embodiment.

The metadata generator process 24050 may generate metadata, whichincludes inverse conversion information (gamut resampling function)regarding conversion used in the gamut resampling generated in the gamutresampling process 24020, colorist information generated in the colorrendering process 24030, RGB to YCbCr conversion information generatedin the color encoding process 24040, and/or color encoding informationincluding color gamut information. In accordance with one embodiment,through the above-mentioned process, gamut re-sampling metadata, VUI,etc. may be generated. This process may be carried out by the signalinginformation generator according to one embodiment.

In the video encoding process 24060, the transmitter may perform datacompression using a video codec for transmission of UHD images. Inaccordance with one embodiment, gamut re-sampling metadata and imagequality related metadata including VUI or the like may be contained invideo sources. The above-mentioned process may be carried out by theencoder according to one embodiment.

REC.709 and BT.2020 may correspond to one embodiment of the presentinvention, and another color gamut of another standard may be used asnecessary.

FIG. 25 is a conceptual diagram illustrating a receiver and operationsof the receiver according to an embodiment of the present invention.

Referring to FIG. 25, if WCG video is transmitted according to oneembodiment, the receiver may analyze signals and may output imagesthrough gamut resampling, and as such a detailed description thereof isas follows.

The receiver according to one embodiment may recognize the presence orabsence of a separate service or media to be additionally received, soas to construct the original UHDTV broadcasting usingUHD_program_info_descriptor of the received PMT. If UHD_service_typecontained in UHD_program_info_descriptor is set to 1010, the receivermay recognize the presence or absence of additional information to betransmitted through the SEI message. Alternatively, if UHD_service_typecontained in UHD_program_info_descriptor is set to 0000 or 0001, thereceiver may recognize the presence of additional informationtransmitted through EIT.

In accordance with one embodiment, the color gamut may be determined onthe basis of the color gamut information contained in VUI. If the colorgamut contained in VUI can be displayed on the display of the receiver,the receiver may perform post-processing of the video, and may finallydisplay the content. In contrast, assuming that color gamut informationcontained in VUI exceeds the color expression gamut capable of beingdisplayed on the display, one embodiment of the present invention mayrecognize the color gamut expressed by the real content using theadditional information transmitted through the SEI message or EIT, andmay convert the color gamut to be appropriate for display.

One embodiment of the present invention may receive color gamutinformation of the real content, color gamut information (containercolor gamut information) needed to perform color encoding, and/or thegamut resampling information.

Through the SEI message including gamut_resampling_info(payloadsize) orthrough gamut_resampling_info_descriptor of the EIT, color gamutinformation of the actual content, the color gamut information(container color gamut information) needed for color encoding, and/orgamut resampling information may be received. In accordance with oneembodiment, if the color gamut of the content is in the rangeappropriate for the display, and/or if the gamut resampling methoddenoted by the gamut_resampling_type can be processed by the receiver,gamut resampling may be carried out. In this case, the receiver maydirectly process the function that converts container_color_gamut_typeinto content_color_gamut_type according to gamut_resampling_type, or mayconvert the color gamut using the coefficient of a function directlytransmitted by a manufacturer. In accordance with one embodiment, thereceiver may perform color enhancement processing to improve the sensorof color during the gamut resampling process. In accordance with oneembodiment, if content_color_gamut_type has a wider gamut as compared tothe color gamut of the display, the received content may be determinedto be a WCG content, and the same effect as in the clipping can beachieved by applying the gamut resampling to the WCG content.Alternatively, one embodiment of the present invention can perform aseparate operation for properly expressing the WCG content on the legacydisplay.

In accordance with one embodiment, the receiver may perform bit depthquantization process for each pixel value of the content image in whichthe color gamut is converted. The bit depth quantization process may becarried out to properly express the content within the bit depth of thedisplay of the receiver. In addition, the bit depth quantization processmay be interoperable with the tone mapping corresponding to the videopost-processing step and/or may be interoperable with the transfercurve.

In accordance with one embodiment, the receiver may outputsuperior-quality images having improved luminance or higher sense ofcolor through video post-processing prior to final display of thecontent. In accordance with one embodiment, content_color_gamut_typecontained in the SEI message or color primary values of RGBW may beused.

The receiver according to one embodiment may include a tuner anddemodulator 25010, a VSB decoder 25020, a demultiplexer (demux) 25030, asection data processor 25040, a decoder 25050, a gamut matching unit25060, and/or a gamut mapping unit 25070.

The tuner and demodulator 25010 may receive a broadcast signal from thetransmitter, and may demodulate the received broadcast signal. Inaccordance with one embodiment, UHD video or UHD video based on gamutresampling may be contained in the broadcast signal.

The VSB decoder 25020 may decode the VSB-modulated broadcast signal.

The demultiplexer (demux) 25030 may extract video data, audio data, andsignaling data contained in the multiplexed broadcast signal.

The section data processor 25040 may parse and/or process the sectiondata extracted from the demultiplexer 25030. In accordance with oneembodiment, the section data may include a program map table (PMT), avirtual channel table (VCT), an event information table (EIT), a servicedescription table (SDT), etc.

The decoder 25050 may decode video or audio data extracted from thedemultiplexer (demux) 25030.

The gamut matching unit 25060 may compare the color gamut of thecontainer received through the VUI or SEI message with the color gamutof the display. In this case, colour_primaries defined in VUI or theabove-mentioned container_color_gamut_type may be used. If the receiverdoes not express the color gamut of the received container, that is, ifthe display of the receiver is determined to be the legacy display, thereceiver may convert the received image into images appropriate for thelegacy display of the receiver through additional processing. If thecontainer color gamut can be expressed on the display, the content maycorrespond to UHD video 25090 based on BT.2020.

The gamut mapping unit 25070 may re-display content expressed as the WCGto support a WCG display as an original color expression gamut. Adetailed description thereof has already been given. In accordance withone embodiment, the content in which the color gamut is converted maycorrespond to the UHD video 25080 based on REC.709.

FIG. 26 is a flowchart illustrating a method for receiving a broadcastsignal according to an embodiment of the present invention.

One embodiment of the present invention may receive a broadcast signalthrough the following process. The receiver according to one embodimentmay receive signaling information including both the content data basedon the first color gamut and the color gamut resampling informationregarding the first color gamut based content data (S26010). The firstcolor gamut and the second color gamut used in the receiver according toone embodiment may have another meaning different from the first andsecond color gamuts used in the transmitter. From the viewpoint of thereceiver according to one embodiment, the first color gamut for use inthe receiver may indicate a container color gamut, may indicate thecolor gamut based on editing of the content data and/or the color gamutbased on the transmission format. The second color gamut may indicatethe color gamut of the original content or the color gamut of thedisplay. In contrast, the first color gamut used in the transmitteraccording to one embodiment may indicate the color gamut of the originalcontent, and the second color gamut may indicate the color gamut of thecontainer. Accordingly, from the viewpoint of the receiver according toone embodiment, the first color gamut may indicate the BT.2020 colorgamut, and the second color gamut may indicate REC. 709 color gamut. Adetailed description thereof has already been given with reference toFIGS. 2, 3, 4, 6, 7, and 25. The receiver according to one embodimentmay decode each of the received signaling information and the contentdata based on the first color gamut (S26020). A detailed descriptionthereof has already been given with reference to FIGS. 3, 4, 6, 7, and25. Thereafter, the receiver according to one embodiment may resamplethe content data based on the first color gamut into content data basedon the second color gamut on the basis of the decoded signalinginformation so as to output the resampled resultant data on the displaybased on the second color gamut, or the content data based on thedecoded first color gamut may be output to the display based on thefirst color gamut (S26030). The display based on the second color gamutmay be referred to as a legacy display, or may indicate the displaybased on REC.709 color gamut. The display based on the second colorgamut may indicate the display capable of displaying the WCG, or mayindicate the display based on BT.2020 color gamut. A detaileddescription thereof has already been given with reference to FIGS. 3, 4,and 25.

In accordance with another embodiment, the above-mentioned color gamutresampling information may include information regarding the first colorgamut, information regarding the second color gamut, the color gamutresampling type information indicating the resampling scheme, and/ordetailed information of the color gamut resampling type according to thecolor gamut resampling type information. In accordance with onembodiment, information regarding the first color gamut for use in thereceiver may include container_color_gamut_type and/orgeneral_color_primaries( ). Information regarding the second color gamutmay include content_color_gamut_type and/or general_color_primaries( ).The color gamut resampling type information according to one embodimentmay indicate gamut_resampling_type, and detailed information of thecolor gamut resampling type may indicate gamut_resampling_info( ). Adetailed description thereof has already been given with reference toFIGS. 6 to 17.

In accordance with another embodiment, the first color gamut informationmay include information regarding the first color gamut type and/or thecoordinate information in a color space of a reference color fordefining the first color gamut when the first color gamut is notidentical to the legacy defined color gamut. The second color gamutinformation may include information regarding the second color gamuttype and/or the coordinate information in a color space of a referencecolor for defining the second color gamut when the second color gamut isnot identical to the legacy defined color gamut. The color gamutaccording to one embodiment may correspond to the color gamut defined asthe legacy standard, and may correspond to the arbitrarily defined colorgamut. Differently from the receiver according to one embodiment,information indicating the type of the first color gamut may indicatecontainer_color_gamut_type, and the coordinate information in a colorspace of a reference color for defining the first color gamut instead ofthe legacy defined color gamut may indicate coordinate informationcontained in general_color_primaries( ). From the viewpoint of thereceiver according to one embodiment, information indicating the type ofthe second color gamut may indicate content_color_gamut_type. If thesecond color gamut is not identical to the legacy defined color gamut,and the coordinate information in the color space of a reference colorfor defining the second color gamut may indicate coordinate informationcontained in general_color_primaries( ). A detailed description thereofhas already been given with reference to FIGS. 7 and 8.

In accordance with another embodiment, assuming that the resamplingscheme based on the color gamut resampling type information is thescheme in which content data based on the first color gamut is a neutralcolor space value not affected by the color gamut, and the convertedneutral color space value is converted into the content data based onthe second color gamut, detailed information of the color gamutresampling type may include information indicating the neutral colorspace type, coefficient information of the conversion equation forconverting the content data based on the first color gamut into aneutral color space value, and/or coefficient information of theconversion equation for converting the converted neutral color spacevalue into the content data based on the second color gamut. Informationindicating the neutral color space type according to one embodiment mayindicate color_space_type. The coefficient information of the conversionequation for converting the content data based on the first color gamutinto a neutral color space value may indicateRGB_XYZ_mapping_function_coeff[i], and the coefficient information ofthe conversion equation for converting the converted neutral color spacevalue into the content data based on the second color gamut may indicateXYZ_to_RGBprime_mapping_function_coeff[i]. A detailed descriptionthereof has already been given with reference to FIGS. 7 and 9.

In accordance with another embodiment, assuming that the resamplingscheme based on the color gamut resampling type information is thescheme for directly converting the content data based on the first colorgamut into the content data based on the second color gamut, detailedinformation of the color gamut resampling type may include coefficientinformation of the conversion equation for converting the content databased on the first color gamut into the content data based on the secondcolor gamut. Assuming that the resampling scheme based on the colorgamut resampling type information is the scheme for using the lookuptable (LUT) indicating mapping information between the content databased on the first color gamut and the content data based on the secondcolor gamut, detailed information of the color gamut resampling type mayinclude the type information of the lookup table (LUT) and constituentelement information of the lookup table (LUT). In accordance withdetailed information of the color gamut resampling type, the coefficientinformation of the conversion equation for converting the content databased on the first color gamut into content data based on the secondcolor gamut may indicate gamut_resampling_function_coeff[i], and typeinformation of the lookup table may indicate LUT_type, and theconstituent element information of the lookup table (LUT) may indicateLUT_info( ). A detailed description thereof has already been given withreference to FIGS. 7 and 9.

In accordance with another embodiment, the signaling information mayinclude a Program Map Table (PMT), an Event Information Table (EIT), aVideo Usability Information (VUI) message, and/or a SupplementalEnhancement Information (SEI) message. At least one of PMT and EITaccording to one embodiment may include specific information foridentifying that the broadcast service contained in the transmittedbroadcast signal is identical to the broadcast service based on thecolor gamut resampling. A detailed description thereof has already beengiven with reference to FIGS. 6, 18, 19, 20, and 21.

In accordance with another embodiment, the color gamut resamplinginformation may be contained in at least one of PMT, EIT, VUI, and SEImessages. A detailed description thereof has already been given withreference to FIGS. 6, 7, 18, 19, 20, 21, 22, and 23.

FIG. 27 is a block diagram illustrating an apparatus for transmitting abroadcast signal according to an embodiment of the present invention.

Referring to FIG. 27, the transmitter 27060 according to one embodimentmay include a color gamut resampling unit 27010, a signaling informationgenerator 27020, an encoder for encoding the generated signalinginformation and content data based on the second color gamut, and/or atransmitter 27040 for transmitting the encoded content data and theencoded signaling information.

Respective components contained in the transmitter according to anembodiment of the present invention may perform respective steps of themethod for transmitting the broadcast signal.

The color gamut resampling unit 27010 may resample the content databased on the first color gamut into content data based on the secondcolor gamut. A detailed description thereof has already been given withreference to FIGS. 2 and 24.

The signaling information generator 27020 may generate signalinginformation including the color gamut resampling information forindicating the resampling information. A detailed description thereofhas already been given with reference to FIGS. 6, 7, 8, 18, 19, 21, 22,and 23.

The encoder 27030 may encode the generated signaling information andcontent data based on the second color gamut. A detailed descriptionthereof has already been given in FIG. 24.

The transmitter 27040 may transmit the encoded content data and theencoded signaling information. A detailed description thereof hasalready been given in FIG. 24.

FIG. 28 is a block diagram illustrating an apparatus for receiving abroadcast signal according to an embodiment of the present invention.

Referring to FIG. 28, the apparatus for receiving the broadcast signalmay include a receiver 28010, a decoder 28020, and/or an output unit28030.

Respective components contained in the receiving apparatus according toone embodiment may perform the respective steps of the method forreceiving the broadcast signal.

The receiver 28010 may receive not only content data based on the firstcolor gamut, but also signaling information including color gamutresampling information regarding the content data based on the firstcolor gamut. A detailed description thereof has already been given withreference to FIGS. 2, 3, 4, 6, 7, and 25. The receiver 28010 accordingto one embodiment may include a tuner, a demodulator, a VSB decoder, anda demultiplexer (Demux).

The decoder 28020 may decode each of the received signaling informationand content data based on the first color gamut. A detailed descriptionthereof has already been given with reference to FIGS. 3, 4, 6, 7, and25. The decoder 28020 according to one embodiment may include theabove-mentioned section data processor and/or the decoder.

The output unit 28030 may resample the content data based on the decodedfirst color gamut into content data based on the second color gamut onthe basis of the decoded signaling information, and may output theresampled result to the display based on the second color gamut or mayoutput the content data based on the decoded first color gamut into thedisplay based on the first color gamut. A detailed description thereofhas already been given with reference to FIGS. 3, 4, and 25. The outputunit 28030 according to one embodiment may include the above-mentionedgamut matching unit and/or gamut mapping unit.

Although the description of the present invention is explained withreference to each of the accompanying drawings for clarity, it ispossible to design new embodiment(s) by merging the embodiments shown inthe accompanying drawings with each other. And, if a recording mediumreadable by a computer, in which programs for executing the embodimentsmentioned in the foregoing description are recorded, is designed innecessity of those skilled in the art, it may belong to the scope of theappended claims and their equivalents.

An apparatus and method according to the present invention may benon-limited by the configurations and methods of the embodimentsmentioned in the foregoing description. And, the embodiments mentionedin the foregoing description can be configured in a manner of beingselectively combined with one another entirely or in part to enablevarious modifications.

In addition, a method according to the present invention can beimplemented with processor-readable codes in a processor-readablerecording medium provided to a network device. The processor-readablemedium may include all kinds of recording devices capable of storingdata readable by a processor. The processor-readable medium may includeone of ROM, RAM, CD-ROM, magnetic tapes, floppy discs, optical datastorage devices, and the like for example and also include such acarrier-wave type implementation as a transmission via Internet.Furthermore, as the processor-readable recording medium is distributedto a computer system connected via network, processor-readable codes canbe saved and executed according to a distributive system.

It will be appreciated by those skilled in the art that variousmodifications and variations can be made in the present inventionwithout departing from the spirit or scope of the inventions. Thus, itis intended that the present invention covers the modifications andvariations of this invention provided they come within the scope of theappended claims and their equivalents.

Both apparatus and method inventions are mentioned in this specificationand descriptions of both of the apparatus and method inventions may becomplementarily applicable to each other.

Mode for Invention

Various embodiments have been described in the best mode for carryingout the invention.

INDUSTRIAL APPLICABILITY

The embodiments of the present invention can be applied to the entirebroadcasting industry.

1. A method for transmitting a broadcast signal comprising: resamplingcontent data based on a first color gamut into content data based on asecond color gamut; generating signaling information including colorgamut resampling information indicating information of the resampling;encoding the generated signaling information and the content data basedon the second color gamut; and transmitting the encoded content data andthe encoded signaling information.
 2. The method according to claim 1,wherein the color gamut resampling information includes informationregarding the first color gamut, information regarding the second colorgamut, color gamut resampling type information indicating a scheme ofthe resampling, and detailed information of a color gamut resamplingtype based on the color gamut resampling type information.
 3. The methodaccording to claim 2, wherein: information regarding the first colorgamut information includes not only information indicating a type of thefirst color gamut, but also coordinate information in a color space of areference color for defining the first color gamut when the first colorgamut is not identical to a legacy defined color gamut; and informationregarding the second color gamut includes not only informationindicating a type of the second color gamut, but also coordinateinformation in a color space of a reference color for defining thesecond color gamut when the second color gamut is not identical to alegacy defined color gamut.
 4. The method according to claim 2, wherein:if the resampling scheme based on the color gamut resampling typeinformation is a method for converting the content data based on thefirst color gamut into a neutral color space value not affected by acolor gamut and converting the converted neutral color space value intothe content data based on the second color gamut, the detailedinformation of the color gamut resampling type includes informationindicating a type of the neutral color space, coefficient information ofa conversion equation for converting content data based on the firstcolor gamut into the neutral color space value, and coefficientinformation of a conversion equation for converting the convertedneutral color space value into content data based on the second colorgamut.
 5. The method according to claim 2, wherein: if the resamplingscheme based on the color gamut resampling type information is a methodfor directly converting the content data based on the first color gamutinto content data based on the second color gamut, the detailedinformation of the color gamut resampling type includes coefficientinformation of a conversion equation for converting content data basedon the first color gamut into the content data based on the second colorgamut; and if the resampling scheme based on the color gamut resamplingtype information is a method for employing a lookup table indicatingmapping information between the content data based on the first colorgamut and the content data based on the second color gamut, the detailedinformation of the color gamut resampling type includes type informationof the lookup table and constituent element information of the lookuptable.
 6. The method according to claim 1, wherein: the signalinginformation includes a Program Map Table (PMT) message, an EventInformation Table (EIT) message, a Video Usability Information (VUI)message, and a Supplemental Enhancement Information (SEI) message; andat least one of the Program Map Table (PMT) and the Event InformationTable (EIT) includes identification (ID) information for identifyingthat a broadcast service contained in the broadcast signal is abroadcast service based on the color gamut resampling.
 7. The methodaccording to claim 6, wherein the color gamut resampling information iscontained in at least one of the Program Map Table (PMT) message, theEvent Information Table (EIT) message, the Video Usability Information(VUI) message, and the Supplemental Enhancement Information (SEI)message.
 8. A method for receiving a broadcast signal comprising:receiving content data based on a first color gamut and signalinginformation including color gamut resampling information regarding thecontent data based on the first color gamut; decoding each of thereceived signaling information and the content data based on the firstcolor gamut; and on the basis of the decoded signaling information,resampling content data based on the decoded first color gamut intocontent data based on a second color gamut, outputting the resampleddata to a display based on the second color gamut or outputting contentdata based on the decoded first color gamut to a display based on thefirst color gamut.
 9. The method according to claim 8, wherein the colorgamut resampling information includes information regarding the firstcolor gamut, information regarding the second color gamut, color gamutresampling type information indicating a scheme of the resampling, anddetailed information of a color gamut resampling type based on the colorgamut resampling type information.
 10. The method according to claim 9,wherein: information regarding the first color gamut informationincludes not only information indicating a type of the first colorgamut, but also coordinate information in a color space of a referencecolor for defining the first color gamut when the first color gamut isnot identical to a legacy defined color gamut; and information regardingthe second color gamut includes not only information indicating a typeof the second color gamut, but also coordinate information in a colorspace of a reference color for defining the second color gamut when thesecond color gamut is not identical to a legacy defined color gamut. 11.The method according to claim 9, wherein: if the resampling scheme basedon the color gamut resampling type information is a method forconverting the content data based on the first color gamut into aneutral color space value not affected by a color gamut and convertingthe converted neutral color space value into the content data based onthe second color gamut, the detailed information of the color gamutresampling type includes information indicating a type of the neutralcolor space, coefficient information of a conversion equation forconverting content data based on the first color gamut into the neutralcolor space value, and coefficient information of a conversion equationfor converting the converted neutral color space value into content databased on the second color gamut.
 12. The method according to claim 9,wherein: if the resampling scheme based on the color gamut resamplingtype information is a method for directly converting the content databased on the first color gamut into content data based on the secondcolor gamut, the detailed information of the color gamut resampling typeincludes coefficient information of a conversion equation for convertingcontent data based on the first color gamut into the content data basedon the second color gamut; and if the resampling scheme based on thecolor gamut resampling type information is a method for employing alookup table indicating mapping information between the content databased on the first color gamut and the content data based on the secondcolor gamut, the detailed information of the color gamut resampling typeincludes type information of the lookup table and constituent elementinformation of the lookup table.
 13. The method according to claim 8,wherein: the signaling information includes a Program Map Table (PMT)message, an Event Information Table (EIT) message, a Video UsabilityInformation (VUI) message, and a Supplemental Enhancement Information(SEI) message; and at least one of the Program Map Table (PMT) and theEvent Information Table (EIT) includes identification (ID) informationfor identifying that a broadcast service contained in the broadcastsignal is a broadcast service based on the color gamut resampling. 14.The method according to claim 13, wherein the color gamut resamplinginformation is contained in at least one of the Program Map Table (PMT)message, the Event Information Table (EIT) message, the Video UsabilityInformation (VUI) message, and the Supplemental Enhancement Information(SEI) message.
 15. An apparatus for transmitting a broadcast signalcomprising: a color gamut resampling unit configured to resample contentdata based on a first color gamut into content data based on a secondcolor gamut; a signaling information generator configured to generatesignaling information including color gamut resampling informationindicating information of the resampling; an encoder configured toencode the generated signaling information and the content data based onthe second color gamut; and a transmitter configured to transmit theencoded content data and the encoded signaling information.
 16. Anapparatus for receiving a broadcast signal comprising: a receiverconfigured to receive content data based on a first color gamut andsignaling information including color gamut resampling informationregarding the content data based on the first color gamut; a decoderconfigured to decode each of the received signaling information and thecontent data based on the first color gamut; and an output unit, on thebasis of the decoded signaling information, configured to resamplecontent data based on the decoded first color gamut into content databased on a second color gamut, output the resampled data to a displaybased on the second color gamut or output content data based on thedecoded first color gamut to a display based on the first color gamut.